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CANMET Material Technology Laboratory(CANMET材料技术实验室)---Diamond Schmitt Architects

发布时间:2019-10-14 14:32:27 69 0

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建筑师:钻石史密特建筑师

面积:165000.0 平方米

年份:2011年

地址:加拿大安大略省汉密尔顿

The CANMET Material Technology Laboratory, which is striving for LEED Platinum certification, was designed by Diamond and Schmitt Architects for Natural Resources Canada, a federal agency.This 15,400-square meter (165,000-square foot) facility will host metallurgical research in an environment filled with natural light, fresh air ventilation, planting gardens and a multitude of renewable and passive schemes, all of which serve to diminish energy consumption by 70 percent.

Approximately three-quarters of the three-storey facility include lab configurations with floor to ceiling heights of four to twelve meters with bridge cranes capable of lifting up to ten tons. Some activities that take place in these labs include casting, metal forming, welding, and analytical testing.

Office and support space engage the rest of the building, which features an accommodating work atmosphere for CANMET personnel. Enlightening office space, well-configured labs with outside views improve the workplace. A light infused atrium with an elliptical stairway connects all three floors that encompass lounges and terraces to provide welcoming spaces for interaction.

Renewable energy sources at CANMET include 209 rooftop solar thermal collectors that provide radiant heating and the building’s entire annual domestic water heating requirements, with on site storage in solar cisterns for unused solar heat. An 80-hole borehole thermal energy field complements the renewable thermal energy sourcing while a 6000-square-foot solar wall preheats incoming air to further reduce reliance on conventional heating systems.

Further energy savings are augmented with a high performance thermal building envelope and triple glazing. Solar shades reduce heat gain and glare, while specialty glazing directs light deep into the space paired with daylight and occupancy sensors to reduce energy consumption for lighting. The building systems are fully automated and the data will be available to provide real time feedback on performance.

Rainwater from the expansive roof is collected and stored in underground cisterns to serve the building’s water needs and irrigation. Overall water use will be reduced by 87 percent.

CANMET材料技术实验室正在努力获得LEED白金认证,由联邦机构加拿大自然资源部钻石与施密特建筑师事务所设计。这座15400平方米(165,000平方英尺)的设施将在充满环境的环境中进行冶金研究拥有自然采光,新鲜空气流通,种植园以及众多可再生和被动式方案,所有这些都可将能源消耗减少70%。

这栋三层楼高的工厂中,约有四分之三采用实验室配置,地板到天花板的高度为4至12米,桥式起重机最多可起重10吨。这些实验室中进行的一些活动包括铸造,金属成型,焊接和分析测试。

办公室和支撑空间与建筑物的其余部分交织在一起,为CANMET人员提供了舒适的工作氛围。布置合理的实验室具有外部视野,可改善办公空间,可改善工作场所。椭圆形楼梯的轻盈中庭连接了三层楼,包括休息室和露台,为互动提供了温馨的空间。

CANMET的可再生能源包括209个屋顶太阳能集热器,这些集热器提供辐射供暖,满足建筑物的整个年度生活用水需求,并在太阳能储水池中就地存储未使用的太阳能。一个80孔的井眼热能场补充了可再生热能的来源,而6000平方英尺的太阳能墙则将进入的空气预热,以进一步减少对常规加热系统的依赖。

高性能的热建筑围护结构和三层玻璃窗进一步节省了能源。遮阳帘可减少热量获取和眩光,而特种玻璃可将光与日光和占用传感器配合使用,将光线引导至空间深处,以减少照明能耗。建筑系统是完全自动化的,数据将可用于提供有关性能的实时反馈。

来自膨胀屋顶的雨水被收集并存储在地下蓄水池中,以满足建筑物的水需求和灌溉需求。总体用水量将减少87%。



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